CN106065744A - Bar package assembly and bar assemble method - Google Patents

Abstract

The present invention provides bar package assembly and bar assemble method.The assembling operation of the swingle configured with the state after being exerted a force by spring can be improved.nullBar configuration section (126) is provided with the maintaining part (129a) that the second end (673) to spring (670) keeps，And in detection bar (660), it is provided with guide portion (664b)，This guide portion makes the second end (673) being held in maintaining part (129a) move to the direction contrary with the force direction of the second end (673)，And the second end (673) guided to the second fastener (664a) and makes this second end (673) be locked to the second fastener (664a)，When the first end of spring (670) (672) being locked to first fastener (128) of bar configuration section (126) and makes the second end (673) of spring (670), in the way of being held in maintaining part (129a), spring (670) are configured at bar configuration section (126)，Detection bar (660) is configured at bar configuration section (126)，It is possible to the second end (673) of spring (670) is locked to the second fastener (664a).

Description

Bar package assembly and bar assemble method

Technical field

The present invention relates to bar (lever) package assembly and bar assemble method.

Background technology

Patent Document 1 discloses the door lock (door that the door (door) of vehicle is remained off closed state relative to vehicle body Lock) device.This door lock assembly possesses multiple swingle in housing (housing).In these swingles, have with by bullet Spring (spring) (such as torsionspring (torsion spring) 33) exerts a force to the posture (rotary angle position) set The structure (such as cancelling bar (cancel lever) 32) of state configuration.

Swingle is configured to by being embedded into the support shaft being located at housing rotate relative to housing.Spring passes through line It is embedded to support shaft outside the winder of circle (coil) shape and is arranged between housing and swingle.From one end locking that winder is prominent In the first fastener being located on housing, it is locked to, from the other end that winder is prominent, the second fastener of being located at swingle, Thus swingle is exerted a force to the direction set.

Citation

Patent documentation

Patent documentation 1: Japanese Unexamined Patent Publication 2007-100318 publication

When assembling swingle to housing, after the support shaft of housing is configured with the winder of spring, by swingle It is embedded in support shaft and configures.Then, after such as one end of spring is locked to the first fastener of housing, bullet is made The other end of spring overcomes the force of spring to bend, thus is locked to the second fastener of swingle.Owing to this assembling is Utilize the precise operation that finger tip is carried out, the most numerous and diverse.

Summary of the invention

Invention to solve the technical problem that

The problem of the present invention is, improves the assembling operation of the swingle that the state to be exerted a force by spring configures.

For solving the scheme of technical problem

The 1st aspect of the present invention provides a kind of bar package assembly, possesses: matrix (base) component；Swingle, its configuration In described base member；Support shaft, it is arranged on described base member or described swingle, and enables described swingle phase Described base member is rotated；And spring, it has winder and the first end highlighted from described winder And the second end, described winder be arranged in by being embedded in outward described support shaft described base member and described swingle it Between, the described first end of described spring is locked on described base member the first fastener arranged, and described second End is locked on described swingle the second fastener arranged, and wherein, is provided with and does not configure institute on described base member The bar configuration section of described spring can be configured in the case of stating swingle, and be provided with maintaining part in described bar configuration section, This maintaining part overcomes the elastic force of described spring to keep described the second end, is provided with guiding (guide) on described swingle Portion, this guide portion makes the described the second end being held in described maintaining part to the side contrary with the force direction of described the second end To movement, and described the second end is guided to described second fastener and makes described the second end be locked to described second locking Portion, to be locked to described first fastener of described base member and to make described spring by the described first end of described spring Described the second end be held in described maintaining part mode, described spring is configured to described base member described bar configuration Under the state in portion, described swingle is configured at the described bar configuration section of described base member, thereby, it is possible to by described spring Described the second end is locked to described second fastener.

In this package assembly, the bar configuration section of base member does not configures swingle, make the of spring One end and the second end are locked to the first fastener and the maintaining part of base member, and spring is thus configured to matrix structure The bar configuration section of part.In this condition, by swingle via support shaft so that the bar of base member can be configured in the way of rotating Configuration section, it is possible to utilize the guide portion of swingle, makes the second end of spring move, and makes the second end be locked to rotate Second fastener of bar.That is, when being configured with spring and swingle relative to base member, it is not necessary to make the end of spring It is locked to each fastener of base member and swingle, therefore, it is possible to assembling operation is significantly increased.

Described base member has the backstop (stopper) making the rotation of the described swingle exerted a force by described spring stop Portion, described second fastener, in the initial position making described swingle abut with described stopper section, is positioned at than described matrix structure The described maintaining part of part is by the opposition side of the force direction of described spring.According to this structure, after assembling when generally working, energy The second end enough preventing spring moves to the maintaining part of base member, it is possible to keep the second end to be locked to the second of swingle The state of fastener.Therefore, it is possible to prevent maintaining part from the work of spring being impacted.It addition, by the elastic force of spring, it is possible to Stably swingle is held in the initial position abutted with stopper section.

Described maintaining part has temporary card stop, and this temporary card stop limits described the second end dashing forward to described support shaft Outgoing direction moves.According to this structure, it is possible to utilize temporary card stop to prevent the maintaining part holding quilt to the second end of spring Release.Therefore, it is possible to keep provisional configuration state relative to base member in the case of not making spring come off.Therefore, it is possible to Reliably improve the swingle assembling operation relative to base member.

Described second fastener has anti-delinking part, and this anti-delinking part limits described the second end to described guide portion side shifting. According to this structure, it is possible to utilize anti-delinking part to prevent the second fastener that the locking of the second end of spring is released from.Accordingly, it is capable to Enough securely maintain spring relative to base member and the assembled state of swingle, therefore, it is possible to prevent swingle Action is bad.It addition, in the assembled state, by spring swingle remained and do not come off from base member.Therefore, to base When body component assembles other parts, it is possible to prevent other parts from interfering with swingle and coming off, therefore, it is possible to improve equipment Overall assembling operation.

The 2nd aspect of the present invention provides a kind of bar package assembly, possesses: base member；Swingle, it is configured at described Base member；Support shaft, it is arranged on described base member or described swingle, and enables described swingle relative to institute State base member to rotate；And spring, it has winder and the first end and second highlighted from described winder End, described winder is arranged between described base member and described swingle by being embedded in outward described support shaft, described The described first end of spring is locked on described base member the first fastener arranged, and the locking of described the second end In the second fastener arranged on described swingle, wherein, described swingle is provided be pre-configured with described bullet The spring incorporating section of spring, and be provided with on described swingle and overcome the elastic force of described spring to keep described first end Maintaining part, is provided with guide portion on described base member, and this guide portion makes to be held in the described first end of described maintaining part Move to the direction contrary with the force direction of described first end, and described first end is guided to described first fastener And make described first end be locked to described first fastener, so that the described the second end of described spring is locked to described rotation Described second fastener of bull stick and make the described first end of described spring be held in the mode of described maintaining part, by described bullet Spring is configured under the state of described spring incorporating section of described swingle, and described swingle is configured at described base member, by This, it is possible to the described first end of described spring is locked to described first fastener.

In this package assembly, base member does not configures swingle, make spring the second end and First end is locked to the second fastener and the maintaining part of swingle, and the spring that spring is thus configured at swingle keeps Portion.In this condition, by swingle via support shaft so that base member can be configured in the way of rotating, it is possible to utilize base The guide portion of body component makes the first end of spring move, and makes first end be locked to the first fastener of base member.That is, Base member is configured with spring and swingle, it is not necessary to make the end of spring be locked to base member and rotation Each fastener of bar, therefore, it is possible to be significantly increased assembling operation.

The assemble method of the 1st aspect of the present invention is, makes the first end from the winder of spring is prominent be locked at base The first fastener arranged on body component, and make from the second end that described winder is prominent overcome described spring elastic force and It is held on described base member the maintaining part arranged, thus described spring is configured at described base member, by revolving Bull stick is described can be configured in the way of rotating via the support shaft being arranged on described base member or described swingle Base member, thus, utilizes the guide portion being arranged on described swingle to make to be held in the described the second end of described maintaining part Move to the direction contrary with the force direction of described the second end, and by described the second end to being arranged on described swingle Second fastener guide and make described the second end be locked to this second fastener.

The assemble method of the 2nd aspect of the present invention is, makes to be locked in rotation from the second end that the winder of spring is prominent The second fastener arranged on bull stick, and make the first end from described winder is prominent overcome the elastic force of described spring to protect It is held on described swingle the maintaining part arranged, thus described spring is configured at described swingle, by by described rotation Bar via the support shaft being arranged on base member or described swingle so that described matrix structure can be configured in the way of rotating Part, thus, utilize be arranged on the guide portion on described base member, make the described first end being held in described maintaining part to The direction that the force direction of described first end is contrary is moved, and by described first end to being arranged on described base member First fastener guides and makes described first end be locked to this first fastener.

Invention effect

In the present invention, by configuring spring on base member or swingle, and in this condition relative to matrix structure Part configuration swingle, it is possible to become and the first end of spring is locked to the first fastener of base member and by spring The second end is locked to the assembled state of the second fastener of swingle.Therefore, it is possible to improve swingle relative to base member Assembling operation.

Accompanying drawing explanation

Figure 1A is the use of the exploded perspective view of the door lock assembly of the bar package assembly of the first embodiment.

Figure 1B is the exploded perspective view when other direction observes door lock assembly.

Fig. 2 is the front view when face side observes subshell (sub-case) being arranged in the first configuration section of housing.

Fig. 3 A is locking mechanism and the rearview of open mechanism illustrating the unlocking condition being configured at subshell.

Fig. 3 B is locking mechanism and the rearview of open mechanism illustrating the lock-out state being configured at subshell.

Fig. 4 A is the locking mechanism of (unlock) state of unblanking in the second configuration section illustrating and being arranged in housing and opens The front view of laying mechanism.

Fig. 4 B is the locking mechanism of the lock-out state in the second configuration section illustrating and being arranged in housing and open mechanism Front view.

Fig. 5 is the second configuration section and the exploded perspective view of circuit substrate of housing.

Fig. 6 is the circuit substrate in the second configuration section illustrating and being arranged in housing and the front view of detection bar.

Fig. 7 is the top view of the busbar of the circuit constituting door lock assembly.

Fig. 8 is the axonometric chart illustrating detection bar relative to the assembled state of housing.

Fig. 9 A is the axonometric chart of the assembled state illustrating detection bar.

Fig. 9 B is the side view of the assembled state illustrating detection bar.

Fig. 9 C is the partial enlarged drawing of Fig. 9 B.

Figure 10 A is the top view of the off working state illustrating detection bar.

Figure 10 B is the top view of the duty illustrating detection bar.

Figure 11 A is the axonometric chart being shown on housing the state being configured with spring.

Figure 11 B is the top view of Figure 11 A.

Figure 11 C is the front view of Figure 11 A.

Figure 12 A is the axonometric chart of detection bar.

Figure 12 B is the side view of detection bar.

Figure 12 C is the upward view of detection bar.

Figure 13 A is the axonometric chart illustrating and assembling the state before bar that detects to housing.

Figure 13 B is the side view of Figure 13 A.

Figure 14 is the side view of the state illustrating the midway assembling detection bar to housing.

Figure 15 A is the axonometric chart of the bar package assembly illustrating the second embodiment.

Figure 15 B is the top view of Figure 15 A.

Figure 15 C is the side view of Figure 15 A.

Figure 16 is the exploded perspective view of the bar package assembly of the second embodiment.

Figure 17 A is detection bar and the exploded perspective view of spring.

Figure 17 B is the upward view of the state being configured with spring on detection bar.

Figure 17 C is the left side view of the state being configured with spring on detection bar.

Figure 17 D is the right side view of the state being configured with spring on detection bar.

Figure 18 is the sectional view illustrating the state assembling detection bar to housing.

Figure 19 is the axonometric chart of the variation of the second configuration section illustrating housing.

Drawing reference numeral illustrates:

10

11 front end faces

20 strikers

30 cables

100 door lock assemblies

110 housings

120 housing body

121 first configuration sections

122 second configuration sections (base member)

123 joint supports

124 rotary shafts

125 exposed hole

126 bar configuration sections

126a Part I

126b Part II

126c stopper section

126d assembles guide portion

127 support shafts

127a base end part

127b leading section

128 first fasteners

128a guide portion

128b anti-delinking part

129 wall parts

129a maintaining part

129b temporary card stop

130 subshells

131 insert recess

132 inserting holes

133 rotary shafts

134 through holes

140 cover plates

141 insert groove

142 setter plates

150 case lid

151 connector connection parts

200 latch gear

210 shift forks

211 rotary shafts

212 fastening grooves

213 fasteners

214 helical springs

220 claws

221 rotary shafts

222 locking receiving portions

223 bar linking parts

300 locking mechanisms

310 electro-motors

311 worm screws

320 worm gears

321 gear part

322 cam paths

323 back-moving springs

330 changer levers

331 rotary shafts

332 first arms

332a cam receiving portion

333 second arms

333a joint linking part

334 press sections

340 connecting rods

342 changer lever linking parts

343 jam plate linking parts

344 hook portions

350 jam plates

351 rotary shafts

352 joint linking parts

353 connecting rod linking parts

354 connecting rod force application springs

360 connecting rods

361 link groove

362 outer bar linking parts

363 open operation portions

370 open bars

371 operation receiving portions

372 claw linking parts

373 helical springs

400 open mechanisms

410 outer bars

411 handle attachment part

412 connecting rod linking parts

Bar in 420

421 handle attachment part

422 connecting rod abutting parts

500 standby mechanisms

510 immobilized spindles

511 insert hole

512 joint work portions

513 kick springs

600 circuit substrates

610 busbars

610D ' branch

611 binding post portions

630 adapters

640 first detection switches

641 contact portion

643 terminals

650 second detection switches

651 contact portion

653 terminals

660 detections bar (swingle)

661 press sections

661a side

661b opposite side

662 test sections

663 axis holes

664 highlight wall portion

664a the second fastener

664b guide portion

664c anti-delinking part

665 second highlight wall portion

665a maintaining part

665b temporary card stop

670 torsionsprings (spring)

671 winders

672 first ends

672a bending section

673 the second ends

The uncompressed position of P0

P1 holding position

P2 engages tip position temporarily

P3 locking position

P4 anticreep tip position

P5 guides starting position

Detailed description of the invention

Hereinafter, according to accompanying drawing, embodiments of the present invention are illustrated.

(the first embodiment)

Figure 1A to Fig. 4 B is shown with the door lock assembly 100 of the bar package assembly involved by embodiments of the present invention.This The door lock assembly 100 of embodiment is arranged on the codriver's seat of vehicle and door 10 (Fig. 2 and Fig. 4 A and Fig. 4 B of rear portion seat In schematically show.On).On these doors 10, it is not provided for by locking as the key of element (key) And cylinder (cylinder) lock unlocked.It addition, be also not provided for locking for passenger and inside the car that unlocks Operating knob (knob).The lock-out state (locking) of door lock assembly 100 switches by driver's seat with unlocking condition (unblock) Solution lock-switch (not shown) of locking of car inner peripheral setting is carried out.

(overall structure)

As shown in Figure 1A and 1B, door lock assembly 100 possesses chain shot (latch) mechanism 200 He being contained in housing 110 Locking mechanism 300.Referring concurrently to Fig. 2, latch gear 200 will be located at the striker of vehicle body in the way of can engaging and depart from (striker) 20 locking, thereby, it is possible to remain off closed state by door 10 relative to vehicle body.Locking mechanism 300 allows hand over into The lock-out state of latch gear 200, Yi Jineng cannot will be passed to as the operation of the door handle (not shown) opening control member Enough unlocking conditions carrying out transmitting.Door handle has the Internal handle (inner handle) being configured at inside car and is configured at outside car The outer handle (outer handle) of side.

The lock-out state of locking mechanism 300 and the switching of unlocking condition are by from remote controller (remote Or the electro-motor (motor) 310 solving the input of lock-switch and work of locking is carried out controller).It addition, when carrying When the charge capacity deficiency of the accumulator (battery) of vehicle, it is possible to it is standby that utilization is arranged on the front end face 11 of door 10 (emergency) mechanism 500 makes locking mechanism 300 become lock-out state.When locking mechanism 300 is in the lock state, i.e. Just door handle is operated, also cannot release the latch gear 200 locking relative to striker 20, thus door 10 cannot be opened. When locking mechanism 300 is in unlocking condition, by the operation of door handle, it is possible to release latch gear 200 relative to striker 20 Locking, thus open door 10.

Housing 110 possesses and is resinous housing body 120, subshell 130 and case lid (housing cover) 150。

Housing body 120 possesses and is the first generally plate like configuration section 121 and the second configuration section 122, and overlooks Under in L-shaped shape.With reference to Fig. 2, Fig. 4 A and Fig. 4 B, the first configuration section 121 configures along the front end face 11 of door 10, the second configuration Portion 122 connects side from a sidepiece of the first configuration section 121 towards the hinge (hinge) of door 10 and extends.Such as Figure 1A, Figure 1B and figure Shown in 2, the first configuration section 121 of housing body 120 is provided with subshell 130.

In the outer surface side contrary with the inner surface side being opposite to the first configuration section 121 of subshell 130, composition bullet is installed The parts group of key mechanism 200.As shown in Figure 1A, Figure 1B, Fig. 3 A and Fig. 3 B, opposed with the first configuration section 121 at subshell 130 Inner surface side, the part of parts group and the outer bar (outer lever) 410 constituting locking mechanism 300 is installed.Such as figure Shown in 1A, Figure 1B, Fig. 4 A and Fig. 4 B, in the second configuration section 122 of housing body 120, composition locking mechanism 300 is installed Remaining parts group, interior bar (inner lever) 420 and constitute the parts group of standby mechanism 500.Second configuration section 122 Covered by case lid 150.

(latch gear)

As shown in Figure 1A, Figure 1B and Fig. 2, subshell 130 is provided with and inserts recess 131 for what striker 20 passed.? The outer surface side of subshell 130 is provided with metal cover plate (cover plate) 140.Cover plate 140 is provided with insert recessed Portion 131 correspondence insert groove 141.Latch gear 200 possesses shift fork (fork) 210 and claw 220.

The upside of recess 131 inserted by rotary shaft 211 by shift fork 210 can be supported in the way of being rotated.At shift fork 210 On be provided with the fastening groove 212 of lower ending opening in Fig. 2.The end of the open side of fastening groove 212 is provided with fastener 213.Dial Fork 210 is flexibly exerted a force by helical spring 214, so that the rotary angle position around rotary shaft 211 becomes release position.

Claw (claw) 220 inserts the downside of recess 131 by rotary shaft 221 can be supported in the way of being rotated.? The right side of the rotary shaft 221 of claw 220 is provided with locking receiving portion 222.It is provided with for making near locking receiving portion 222 The bar linking part 223 that claw 220 rotates to the direction of the locking releasing striker 20.Bar linking part 223 is inserted by subshell 130 Hole 132 (with reference to Figure 1B) and prominent to the inner surface side of subshell 130.Claw 220 via open bar 370 described later by spiral bullet Spring 373 flexibly exerts a force, so that the rotary angle position around rotary shaft 221 becomes the locking position shown in Fig. 2.

When shift fork 210 is release position, the opening of fastening groove 212 is consistent with inserting recess 131.Entered by striker 20 To fastening groove 212, shift fork 210 is made to rotate counter-clockwise from release position.Then, when shift fork 210 rotates to locked position of coupler, card The locking receiving portion 222 of pawl 220 is locked to the fastener 213 of shift fork 210, and shift fork 210 is maintained at locked position of coupler.In this holding Under state, when bar linking part 223 moves down (operation) in fig. 2, claw 220 is rotated clockwise, and engages receiving portion 222 Locking with fastener 213 is released from, and shift fork 210 is rotated to release position by helical spring 214.

(locking mechanism)

With reference to Figure 1A, Figure 1B, Fig. 4 A and Fig. 4 B, locking mechanism 300 possesses: in the second configuration section of housing body 120 Electro-motor 310, worm gear (wheel gear) 320, changer lever 330 and the connecting rod (joint lever) of 122 configurations 340.With reference to Figure 1A, Figure 1B, Fig. 3 A and Fig. 3 B, locking mechanism 300 possesses the jam plate of the inner surface side configuration at subshell 130 (lock plate) 350, connecting rod (link) 360 and open bar 370.

As shown in Figure 4A and 4B, the left upper portion during electro-motor 310 is arranged in the second configuration section 122.Worm gear 320 It is arranged in the lower left side of electro-motor 310.Changer lever 330 is arranged in downside and the right side of worm gear 320 of electro-motor 310. Connecting rod 340 is arranged in the right side of changer lever 330.The position of configuration connecting rod 340 is the first configuration in the second configuration section 122 The end of side, portion 121.As shown in Figure 3A and 3B, the right upper portion during jam plate 350 is arranged in subshell 130.Configuration jam plate 350 Position be the part connected with the second configuration section 122 when subshell 130 is configured at the first configuration section 121.Connecting rod 360 bottoms being arranged in jam plate 350.Open bar 370 is with overlapping in the X direction relative to connecting rod 360 in the bottom of jam plate 350 Mode configures.It should be noted that on subshell 130, metal setter plate 140 is configured to be positioned at connecting rod 360 and open bar Between 370.

As shown in Figure 4A and 4B, electro-motor 310 is can to carry out forward direction and reverse directions when energising The drive mechanism of rotation.Electro-motor 310 is configured as output to axle and is downwardly projected.The output shaft of electro-motor 310 is fixed There is the worm screw (worm gear) 311 of cylindrical shape.

Worm gear 320 is can be arranged in worm screw 311 transversely in the way of rotating.Peripheral part at worm gear 320 is provided with The teeth portion 321 engaged with worm screw 311.The upper surface of the worm gear 320 opposed with case lid 150 is provided with the most gyrate Cam (cam) groove 322.Make under the unlocking condition shown in Fig. 4 A electro-motor 310 carry out lock work time, worm gear 320 via Worm screw 311 and be rotated clockwise.Make under the lock-out state shown in Fig. 4 B electro-motor 310 carry out unblanking work time, worm gear 320 rotate counter-clockwise via worm screw 311.When the action of electro-motor 310 stops, worm gear 320 is reset spring (return spring) 323 (with reference to Figure 1A and Figure 1B) flexibly exerts a force, so that the rotary angle position around rotary shaft becomes For the neutral position shown in Fig. 4 A and Fig. 4 B.

Changer lever 330 is arranged in the side contrary with worm gear 320 relative to worm screw 311.With reference to Figure 1B, changer lever 330 Possesses the rotary shaft 331 that can be supported on the second configuration section 122 rotatably.Changer lever 330 possesses in the way of crossing over worm screw 311 The first arm 332 prominent on worm gear 320.Cam prominent in the front end of the first arm 332 arranges oriented cam path 322 Receiving portion 332a.It addition, changer lever 330 possesses second arm 333 prominent to connecting rod 340 side.Before the second arm 333 End, is provided with by the main joint linking part 333a constituted depending on the lower insertion portion (hole) in oblong shape.Unblanking shown in Fig. 4 A When making worm gear 320 be rotated clockwise by locking work under state, cam receiving portion 332a moves along cam path 322, by This changer lever 330 is around turning anticlockwise.Make worm gear 320 around rotation counterclockwise by work of unblanking under the lock-out state shown in Fig. 4 B When turning, changer lever 330 turns round clockwise.

Connecting rod 340, in the longest tabular, is configured on the right side of changer lever 330 and is positioned at the second arm In portion 333.It is provided with on the top of the second configuration section 122 and connecting rod 340 is supported as the bottom surface relative to the second configuration section 122 The joint support 123 extended parallel to and the both sides, top of connecting rod 340 are kept.Connecting rod 340 is in lower end side Possesses the changer lever linking part 342 linked with changer lever 330.Changer lever linking part 342 is by can incite somebody to action in the way of rotating against The columned protuberance that the joint linking part 333a of changer lever 330 links is constituted.It addition, connecting rod 340 possesses towards configuration The prominent jam plate linking part 343 of subshell 130 in the first configuration section 121.By locking work under the unlocking condition shown in Fig. 4 A Making changer lever 330 when turning anticlockwise, connecting rod 340 upwards moves linearly.Under the lock-out state shown in Fig. 4 B When making changer lever 330 turn round clockwise by work of unblanking, connecting rod 340 moves linearly downwards.

As shown in Figure 3A and 3B, jam plate 350 is arranged in the right upper portion of inner surface side of subshell 130.With reference to Figure 1A And Figure 1B, jam plate 350 possesses the rotary shaft 351 that can be supported on subshell 130 rotatably.Jam plate 350 possesses with can be relative The joint linking part 352 that jam plate linking part 343 from the second prominent connecting rod 340 of configuration section 122 is linked by the mode rotated. Link it addition, jam plate 350 possesses in the lower section of rotary shaft 351 by the connecting rod that connecting rod 360 can be linked in the way of relative movement Portion 353.Connecting rod linking part 353 possesses helical form portion and surrounds the connecting rod force application spring 354 of rotary shaft 351.Opening shown in Fig. 3 A Lock status, when making connecting rod 340 upwards move linearly by locking work, jam plate 350 turns round clockwise.In Fig. 3 B institute When making connecting rod 340 move linearly downwards by work of unblanking under the lock-out state shown, jam plate 350 is around turning anticlockwise.

Connecting rod 360 is in the tabular extended in the vertical direction, and is arranged in the downside of jam plate 350.It is being arranged at connecting rod 360 Upper end link groove 361 on connect have connecting rod force application spring 354.Be provided with link groove 361 connecting rod 360 top with relative to The mode that connecting rod linking part 353 stresses to fold in the X direction configures.On the outer bar linking part 362 of lower end being arranged at connecting rod 360 Outer bar 410 can be linked with the relative rotation.It addition, the middle part at connecting rod 360 is provided with the next door towards subshell 130 Open operation portion 363 prominent in X direction.Connecting rod 360 can carry out straight line in the vertical direction by the work of outer bar 410 Mobile.It addition, under the unlocking condition shown in Fig. 3 A, when making jam plate 350 turn round clockwise by locking work, connecting rod 360 Around counter-clockwise swing centered by lower end.Make jam plate 350 around counterclockwise by work of unblanking under the lock-out state shown in Fig. 3 B During revolution, connecting rod 360 swings centered by lower end clockwise.

Open bar 370 in the downside of jam plate 350 to configure in the way of overlap on the downside of X-direction relative to connecting rod 360.Open Bar 370 possesses towards the prominent operation receiving portion 371 of connecting rod 360.Operation receiving portion 371 under the unlocking condition shown in Fig. 3 A, It is positioned at the rectilinear movement by connecting rod 360 and on track that open operation portion 363 moves.It addition, operation receiving portion 371 is at Fig. 3 B Under shown lock-out state, it is positioned at and separates in the horizontal with the movement by connecting rod 360 and track that open operation portion 363 moves Region.As shown in Figure 1B, open bar 370 relative to the rotary shaft 221 of the claw 220 running through subshell 130 and fixed.Separately Outward, open bar 370 possesses claw linking part 372, links with the bar of the inserting hole 132 through subshell 130 and prominent claw 220 Portion 223 links.By linking, open bar 370 rotates integratedly with claw 220.Open bar 370 is exerted a force by helical spring 373, with Claw 220 is made to rotate to be locked to the locking position of shift fork 210.

Under the unlocking condition shown in Fig. 3 A, open operation portion 363 is positioned at the downside of operation receiving portion 371.Therefore, pass through Make connecting rod 360 upwards move linearly under unlocking condition, thus open bar 370 via operation receiving portion 371 around the inverse time Pin rotates.As a result of which it is, claw 220 is rotated clockwise in fig. 2, and the locking between shift fork 210 is released from.In Fig. 3 B institute Under the lock-out state shown, open operation portion 363 is positioned at the position separated in the horizontal with operation receiving portion 371.Therefore, even if Connecting rod 360 is made upwards to move linearly under lock-out state, owing to open operation portion 363 does not abuts with operation receiving portion 371, because of This open bar 370 also will not rotate.Therefore, claw 220 will not be released from the locking of shift fork 210.

(the open mechanism of door)

As shown in Figure 1A and 1B, door lock assembly 100 possesses and releases latch gear 200 phase via locking mechanism 300 The open mechanism 400 of door for the locking of striker 20.The open mechanism 400 of door possesses: link with the outer handle outside the car of door 10 Outer bar 410；And with the car of door 10 inside Internal handle link interior bar 420.As shown in Figure 3A and 3B, outer bar 410 Inner surface side at subshell 130 is arranged in downside and the left side of connecting rod 360.As shown in Figure 4A and 4B, interior bar 420 is at housing Second configuration section 122 of main body 120 is arranged in the downside of connecting rod 340.

As shown in Figure 3A and 3B, outer bar 410 can be supported on the rotary shaft 133 being arranged on subshell 130 rotatably. Outer bar 410 possesses the handle attachment part 411 highlighted outward from housing 110.It addition, outer bar 410 possesses to rotate against The connecting rod linking part 412 that links of the outer bar linking part 362 of mode and connecting rod 360.When being opened by outer handle opposite house 10 During operation, make outer bar 410 rotate counter-clockwise via not shown shaft (rod), make connecting rod 360 move up.Then, exist In the case of connecting rod 360 is positioned at lockset position of coupler, it is possible to release the latch gear 200 locking to striker 20 via open bar 370.

As shown in Figure 4A and 4B, interior bar 420 can be supported on the rotation being arranged in the second configuration section 122 rotatably Axle 124.Interior bar 420 possesses the handle attachment part 421 highlighted outward from housing 110.It addition, interior bar 420 possesses for the company of making The connecting rod abutting part 422 that bar 360 moves up.Connecting rod abutting part 422 is positioned at the lower end of connecting rod 360.When passing through Internal handle When opposite house 10 carries out open operation, utilize cable 30 and the interior bar 420 that connects rotates counter-clockwise.Thus, connecting rod abutting part 422 Abut with the lower end of connecting rod 360, make connecting rod 360 move up.Then, in the case of connecting rod 360 is positioned at lockset position of coupler, it is possible to The latch gear 200 locking to striker 20 is released via open bar 370.

(standby mechanism)

As shown in Figure 1A, Figure 1B, Fig. 4 A and Fig. 4 B, door lock assembly 100 possesses for passing through electro-motor 310 Mechanically carry out locking the standby mechanism 500 of work when carrying out the special circumstances locking work.Standby mechanism 500 possesses cylindric Immobilized spindle 510.Immobilized spindle 510 is arranged in the second configuration of housing body 120 in the way of being positioned at the upper end side of connecting rod 340 Portion 122.In housing body 120, the second configuration section 122 side in the first configuration section 121 is provided with the end making immobilized spindle 510 The exposed hole 125 that portion exposes.(do not scheme it addition, be provided with the exposed hole corresponding with exposed hole 125 on the front end face 11 of door 10 Show).

As in figure 2 it is shown, immobilized spindle 510 is configured to centered by the axis of immobilized spindle 510 relative to the second configuration section 122 rotate.Immobilized spindle 510 is provided with being provided as the insertion hole that the relatively thin sheet material such as key of element inserts 511.As shown in Figure 4A and 4B, immobilized spindle 510 is provided with the most downward projection of joint work portion 512.Immobilized spindle 510 is configured in the kick spring 513 of the second configuration section 122 and exerts a force to off-position.

In the connecting rod 340 constituting locking mechanism 300, it is provided with in the way of being positioned at the upside of joint support 123 Hook-shaped hook portion 344.When inserting key under the unlocking condition shown in Fig. 4 A to insertion hole 511 and making immobilized spindle 510 at figure When being rotated clockwise in 2, joint work portion 512 engages with hook portion 344, makes connecting rod 340 upwards move linearly.Cause This, make connecting rod 360 swing via jam plate 350, it is possible to becomes the lock-out state shown in Fig. 3 B and Fig. 4 B.

(circuit of door lock assembly)

As shown in figs.5 and 6, door lock assembly 100 possesses for detecting latch gear 200 and locking mechanism 300 The circuit substrate 600 of state.Circuit substrate 600 is consolidated relative to housing body 120 in the downside of the Z-direction of electro-motor 310 Fixed.Circuit substrate 600 is provided with the adapter 630 for electrically connecting with main control unit (not shown).Adapter 630 from The connector connection part 151 of case lid 150 exposes to outside.It addition, be provided with on circuit substrate 600 for detecting chain shot machine The first of the state of structure 200 detects switch 640 and for detecting the second detection switch 650 of the state of locking mechanism 300. First detection switch 640 by detecting the rotary angle position of shift fork 210 via detection bar 660, thus detects latch gear The open mode of 200 and closed mode.The second detection switch 650 rotary angle position by detection changer lever 330, thus The lock-out state of detection locking mechanism 300 and unlocking condition.

As shown in Fig. 6 and Fig. 7, circuit substrate 600 possesses and is made up of and plate-shaped the metal material with electric conductivity Six busbar 610A～610F.Busbar 610A, 610B are directly anchored in the second configuration section 122 of housing body 120.Converge Stream bar 610C～610F is arranged in circuit substrate 600 by inlaying shaping.Each busbar 610A～610F is at adapter 630 The one end of side possesses the binding post portion 611a being contained in adapter 630 and electrically connecting with main control unit.Busbar 610A, 610B possesses the binding post portion electrically connected with electro-motor 310 in the other end of the side contrary with binding post portion 611a 611b.Busbar 610C, 610D possess in the other end of the side contrary with binding post portion 611a respectively with first detection open Close the binding post portion 611c of terminal 643 electrical connection of 640.Busbar 610E, 610F are in the side contrary with binding post portion 611a The other end possess respectively with the binding post portion 611d that electrically connects of terminal 653 of the second detection switch 650.Busbar 610D has The standby branch 610D ' prominent to the second detection switch 650 sides.It is also equipped with in the end of this branch 610D ' and the second inspection The binding post portion 611d of terminal 653 electrical connection of slowdown monitoring switch 650.

As shown in figs.5 and 6, detection bar 660 can be supported on the second configuration section 122 of housing body 120 rotatably The first configuration section 121 side end.Detection bar 660 possesses the press section of the contact portion 641 that can press the first detection switch 640 661.It addition, detection bar 660 possesses towards the prominent test section 662 of subshell 130.It is located at as in figure 2 it is shown, test section 662 runs through The through hole 134 of subshell 130 and be positioned at the top of shift fork 210.Shift fork 210 is made to rotate to release position by open operation, by This detection bar 660 rotates counter-clockwise in figure 6.Thus, docking point portion, press section 661 641 is utilized to carry out pressing and making first Detection switch 640 is turned on.Main control unit can switch the connection signal of 640 by detection from the first detection, Judge the open state of door 10.It addition, by being closed by door 10 and making shift fork 210 rotate to locked position of coupler, thus detect bar 660 are rotated clockwise in figure 6.Thus, the pressing in docking point portion, press section 661 641 is released from, the first detection switch 640 Become off-state.Main control unit can judge door 10 by detection from the cut-off signal of the first detection switch 640 Closure state.

As shown in Figure 4A and 4B, changer lever 330 possesses and can carry out the contact portion 651 of the second detection switch 650 The press section 334 of pressing.Under the unlocking condition shown in Fig. 4 A, the docking point portion, press section 334 651 of changer lever 330 is utilized to enter Row presses and makes the second detection switch 650 be turned on.Main control unit switchs 650 by detection from the second detection Connect signal, it is possible to be judged as that locking mechanism 300 is in unlocking condition.Under the lock-out state shown in Fig. 4 B, the second detection is opened Close 650 and become off-state.Main control unit switchs the cut-off signal of 650 by detection from the second detection, it is possible to be judged as Locking mechanism 300 is in the lock state.

(detailed content of the package assembly of detection bar)

As shown in Fig. 8, Fig. 9 A and Fig. 9 B, detection bar 660 is can be arranged in the second of housing body 120 rotatably to join Put the swingle in portion's (base member) 122.This detection bar 660 is twisted spring 670 and flexibly exerts a force.Pent at door 10 Under state, by releasing the shift fork 210 pressing to test section 662, detection bar 660 is under the effect of the elastic force of torsionspring 670 Rotate to the initial position (off-position) shown in Figure 10 A.When door 10 is opened, by shift fork 210 to detection Portion 662 presses, and thus detection bar 660 overcomes the elastic force of torsionspring 670 to rotate to the rotation set shown in Figure 10 B Gyration position (operating position).

Second configuration section 122 of present embodiment is provided with by detection bar 660 can be arranged in the way of rotating Bar configuration section 126 in the rotation angle range set.This bar configuration section 126 is provided with maintaining part 129a, it is possible to will The second end 673 being locked to detect the torsionspring 670 of bar 660 temporarily holds in bar configuration section 126.It addition, at detection bar It is provided with guide portion 664b on 660, assembles detection bar by having in provisional configuration in the bar configuration section 126 of torsionspring 670 660, so that the second end 673 of the torsionspring 670 temporarily held is locked to detect bar 660.

As shown in Figure 11 A to Figure 11 C, torsionspring 670 possesses the winder that lines component is wound into helical form 671.Winder 671 is arranged between the bottom surface of bar configuration section 126 and detection bar 660.Winder 671 possess be radially oriented outside Prominent pair of end portions 672,673.First end 672 possesses the bending section of bending in the force direction of torsionspring 670 672a, and it is locked to the first fastener 128 of bar configuration section 126.The second end 673 from diametrically opposed in first end 672 contrary laterally outsides highlight.In the present embodiment, first end 672 is arranged in the bottom surface side of bar configuration section 126, The second end 673 configures at spaced intervals with the bottom surface of bar configuration section 126.

Bar configuration section 126 possesses: Part I 126a and the configuration of the press section 661 of configuration detection bar 660 detect bar The Part II 126b of test section 662.Part I 126a is coplanar with the part of configuration the first detection switch 640.Part II 126b is positioned at than Part I 126a away from the side of case lid 150.Part I 126a is to have with Part II 126b The face being parallel to each other that the mode of the ladder difference set is arranged.

Bar configuration section 126 has the winder 671 to torsionspring 670 and detection bar 660 configure Hold axle 127.Support shaft 127 is prominent towards case lid 150 side from the Part II 126b of bar configuration section 126.Support shaft 127 possesses The base end part 127a being positioned at root and the leading section 127b of the front being positioned at projected direction.Base end part 127a and leading section 127b cylindrical form respectively and be formed as coaxial.The external diameter of base end part 127a is more slightly smaller than the internal diameter of winder 671.At base end part 127a is upper is configured with winder 671 in the way of outer.The external diameter of the leading section 127b external diameter than base end part 127a is little.In front end The detection bar 660 rotated it is equipped with on portion 127b.

Bar configuration section 126 is provided with the rotation of the detection bar 660 making to be twisted spring 670 force stop at and set The stopper section 126c of initial position.Stopper section 126c by from the Part I 126a of bar configuration section 126 towards case lid 150 side The boss (boss) of prominent cylindrical shape is constituted.With reference to Figure 10 A, be rotated clockwise by detection bar 660 and release by The position that during pressing in splenium 661 docking point portion 641, detection bar 660 is abutted is provided with stopper section 126c.With reference to Figure 11 A, The assembling guide portion guided by detection bar 660 when assembling it is provided with to bar configuration section 126 side in the front end of stopper section 126c 126d.Assembling guide portion 126d is to roll oblique inclined plane towards cardinal extremity to support shaft 127 from the front end of stopper section 126c.

As shown in Figure 11 B and Figure 11 C, bar configuration section 126 is provided with by the first end 672 of torsionspring 670 First fastener 128 of locking.First fastener 128 is arranged on bar in the way of being positioned at the upside of support shaft 127 in Figure 11 B On the Part II 126b of configuration section 126.First fastener 128 is prominent in quadrangular shape and to the direction identical with support shaft 127 Go out.The upper end than the base end part 127a of support shaft 127, the upper end of the first fastener 128 is low.

As shown in Figure 11 A to Figure 11 C, bar configuration section 126 is provided with after being compressed by torsionspring 670 Temporarily hold maintaining part 129a of the second end 673.Maintaining part 129a be positioned at across support shaft 127 with the first fastener The mode of 128 contrary sides is formed at the downside of support shaft 127 in Figure 11 B.Specifically, bar configuration section 126 is joined It is equipped with and extends and the wall part 129 prominent towards case lid 150 side to Part II 126b from Part I 126a.This wall part The end of the Part II 126b side (subshell 130 side) of 129 is to maintain portion 129a.Wall part 129 has concurrently detection bar 660 around inverse Excessively rotating when hour hands rotate carries out the function of the stopper section limited.From the side 661a of press section 661 and stopper section 126c The position abutted is the anglec of rotation detecting bar 660 to the position that the opposite side 661b of press section 661 abuts with wall part 129 Degree scope.

As shown in Figure 9 C, winder 671 is being configured at support shaft 127, is making first end 672 be locked to the first fastener 128 and torsionspring 670 is not carried out elastic compression state under, the second end 673 is positioned in Fig. 9 C with shown in fine line Uncompressed position P0.Maintaining part 129a is positioned at relative to uncompressed position P0 by flexibly compressing torsionspring 670 and right The opposition side of force direction A of the second end 673 force.Therefore, by making the second end 673 overcome the bullet of torsionspring 670 Power and right side in Fig. 9 C are moved, it is possible to make the second end 673 be maintained at the holding position P1 of maintaining part 129a.

As shown in Figure 11 A, maintaining part 129a possesses restriction the second end 673 to the projected direction of support shaft 127 i.e. top Temporary card stop 129b of movement.As shown in Figure 9 C, temporary card stop 129b is positioned at the second fastener 664a's of detection bar 660 Top.Temporary card stop 129b is made up of stage portion, this stage portion by arrange to torsionspring 670 to the second end 673 Teat that the contrary direction of force direction A of force is prominent and formed.Therefore, it is positioned at holding position P1's at the second end 673 Under state, the second end 673 is made to overcome the elastic force right side in Fig. 9 C further of torsionspring 670 to move, as long as not across The interim locking tip position P2 of temporary card stop 129b, just cannot make the second end 673 depart from from maintaining part 129a.

As shown in Figure 9A and 9B, detection bar 660 is provided with it is embedded into the leading section 127b of support shaft 127 And for the axis hole 663 that detection bar 660 is linked with bar configuration section 126 in the way of can rotating against.Axis hole 663 is arranged on The base end side of press section 661.By axis hole 663 is embedded into the leading section 127b of support shaft 127, make detection bar 660 with can The mode rotated is supported on bar configuration section 126.Press section 661 is positioned on the Part I 126a of bar configuration section 126.Test section 662 are positioned on the Part II 126b of bar configuration section 126.That is, press section 661 and test section 662 is arranged to from axis hole 663 The position of axially upper interval highlight laterally.

As shown in Figure 12 A to Figure 12 C, detection bar 660 possesses second engaged by the second end 673 of torsionspring 670 Fastener 664a.Specifically, the lower surface (opposed faces of Part II 126b) of press section 661 is provided with along axis hole The prominent wall portion 664 of the arc-shaped that the axis of 663 is prominent.In prominent wall portion 664, with the force direction A phase of the second end 673 The end of anti-side is the second fastener 664a.It is positioned at facing of maintaining part 129a referring concurrently to Fig. 9 C, the second fastener 664a Time fastener 129b downside.It addition, the second fastener 664a is at the initial position making detection bar 660 abut with stopper section 126c Place, is positioned at the opposition side of force direction A leaning on the second end 673 than maintaining part 129a.Therefore, it is positioned at guarantor from the second end 673 Hold the state of position P1, make the second end 673 overcome torsionspring 670 elastic force and further the right side in Fig. 9 C move, Thus enable that the second end 673 is locked to locking position P3 of the second fastener 664a.

As shown in Figure 12 A to Figure 12 C, be provided with in the downside (front of assembly orientation) of the second fastener 664a for The second end 673 is locked to guide portion 664b of the second fastener 664a；And limit the second end 673 from the second fastener The anti-delinking part 664c that 664a departs from.

First, anti-delinking part 664c is made up of stage portion, this stage portion by arrange from the bottom of the second fastener 664a to Teat that the direction contrary with force direction A of the second end 673 is prominent and formed.Referring concurrently to Fig. 9 C, anti-delinking part 664c's Top is positioned at locking position P3 that engages the second end 673 than the second fastener 664a force direction A by the second end 673 Opposition side.Therefore, when the second end 673 is positioned at locking position P3, make the second end 673 overcome torsionspring The elastic force of 670 and further the right side in Fig. 9 C move, as long as not across anti-delinking part 664c anticreep tip position P4 and to Guide portion 664b side shifting, just cannot make the second end 673 depart from from the second fastener 664a.

As shown in Figure 12 A to Figure 12 C, guide portion 664b makes the second end 673 being held in maintaining part 129a to second The direction that force direction A of end 673 is contrary is moved, and is guided to the second fastener 664a by the second end 673 and make it block Terminate in the second fastener 664a.Guide portion 664b is by from front end the inclining to the top droop of anti-delinking part 664c in prominent wall portion 664 Beveled edge is constituted.Guide portion 664b is obliquely installed relative to the detection installation direction installed to bar configuration section 126 of bar 660.Reference Fig. 9 C, the front end of guide portion 664b i.e. guides starting position P5 to be positioned at the holding position P1 than maintaining part 129a by the second end The position in the front of force direction A of 673.Therefore, when making the second end 673 be held in maintaining part 129a, will inspection Measuring staff 660 is configured at bar configuration section 126, thus enables that the second end 673 abuts with guide portion 664b.Then, by examining Measuring staff 660 presses to bar configuration section 126 side, makes the second end 673 along the inclination of guide portion 664b to contrary with force direction A Direction move such that it is able to cross the anticreep tip position P4 of anti-delinking part 664c and make the second end 673 be locked to the second card Stop 664a.

As shown in Figure 9 C, the uncompressed position of the second end 673 under the state of the compression relieving torsionspring 670 P0, the second end 673 is made to be held in the holding position P1 of maintaining part 129a of bar configuration section 126, the temporary card of maintaining part 129a The interim locking tip position P2 of stop 129b, make the card that the second end 673 is locked to detect the second fastener 664a of bar 660 Stop bit is put P3, the anticreep tip position P4 detecting the anti-delinking part 664c of bar 660 and guide portion 664b and is entered the second end 673 Row guide guiding starting position P5 according to uncompressed position P0, guide starting position P5, holding position P1, locking position P3, Anticreep tip position P4 and the order of interim locking tip position P2 and be positioned at contrary with force direction A of the second end 673 Side.

Therefore, when by torsionspring 670 provisional configuration in bar configuration section 126, it is possible to prevent torsionspring 670 from joining from bar Put portion 126 to depart from.It addition, detection bar 660 is configured at when torsionspring 670 is pre-configured in bar configuration section 126 During bar configuration section 126, it is possible to make the second end 673 of the torsionspring 670 temporarily held be locked to detect the second of bar 660 Fastener 664a.It addition, when making the second end 673 be locked to the second fastener 664a, it is possible to prevent the second end 673 from Two fastener 664a depart from.

Then, specifically carry out for the assembling procedure assembling torsionspring 670 and detection bar 660 to bar configuration section 126 Explanation.

As shown in Figure 11 A to Figure 11 C, make to be embedded in outside the winder 671 of torsionspring 670 support shaft of bar configuration section 126 127.And, after winder 671 is configured to the base end part 127a of support shaft 127, make the first end of torsionspring 670 672 the first fasteners 128 being locked to bar configuration section 126.Then, the second end 673 making torsionspring 670 overcome elastic force and Mobile, the second end 673 is held in the way of hook maintaining part 129a of bar configuration section 126.

Under the provisional configuration state of torsionspring 670 above the second end 673, temporary card stop 129b is to second The direction that force direction A of end 673 is contrary highlights.Therefore, even if executing upward relative to torsionspring 670 in Figure 11 A Add external force, it is also possible to stoped the movement of the second end 673 by temporary card stop 129b.Join therefore, it is possible to be reliably prevented The torsionspring 670 being placed in bar configuration section 126 comes off from bar configuration section 126.Assemble therefore, it is possible to improve to bar configuration section 126 The assembling operation of detection bar 660.

Then, as shown in Figure 13 A and Figure 13 B, it is embedded with at the leading section 127b of the support shaft 127 of bar configuration section 126 The axis hole 663 of detection bar 660.Now, the feelings outside the posture at detection bar 660 becomes the rotation angle range of bar configuration section 126 Under condition, detection bar 660 is owing to interfering with stopper section 126c or wall part 129 and cannot be embedded into support shaft 127.It addition, In the case of the side 661a of press section 661 is positioned on the 126c of stopper section, detection bar 660 is along with assembling guide portion 126d Tilt and rotate, make detection bar 660 be positioned at rotation angle range.

The rotary angle position that connects with wall part 129 it is positioned at the opposite side 661b of press section 661 of detection bar 660 In the case of, the second end 673 of torsionspring 670 is positioned in Fig. 9 C the position of the side that keeps left than guiding starting position P5.Therefore, phase The front-end edge in the prominent wall portion 664 of the detection bar 660 be arrangeding in parallel for the diapire of bar configuration section 126 supports with the second end 673 Connect.Therefore, it is impossible to be further inserted into detecting bar 660.By making detection bar 660 rotate to 126c side, stopper section, it is possible to will reverse The right side of the guiding starting position P5 that the second end 673 of spring 670 is arranged in Fig. 9 C.

The state of the initial position abutted with stopper section 126c it is positioned at the side 661a of the press section 661 of detection bar 660 Under, as shown in the dotted line of Fig. 9 C, the second end 673 of torsionspring 670 be positioned at guide starting position P5 right side and with guiding Portion 664b abuts.In this condition, by towards bar configuration section 126 pressing detection bar 660, it is possible to by the of torsionspring 670 Two ends 673 are locked to detect the second fastener 664a of bar 660.

Specifically, the second end 673 tilting along guide portion 664b by pressure and overcoming torsion bullet at detection bar 660 The elastic force of spring 670 and move to the direction contrary with force direction A.Then, by detection bar 660 is pressed into the group set Holding position, thus the second end 673 crosses the top of the anti-delinking part 664c detecting bar 660.Thus, such as the heavy line institute of Fig. 9 C Showing, the second end 673 of torsionspring 670 is locked to detect the second fastener 664a of bar 660.

So, in the present embodiment, when detecting bar 660 and not being configured to bar configuration section 126, first end is made 672 are locked to the first fastener 128, and make the second end 673 be held in maintaining part 129a, and are configured by torsionspring 670 To bar configuration section 126.In this condition, by detection bar 660 being configured at bar configuration section 126, thus utilize detection bar 660 Guide portion 664b makes the second end 673 of torsionspring 670 move, it is possible to make the second end 673 be locked to detect the of bar 660 Two fastener 664a.Thus, operator is without carrying out making the second end 673 of torsionspring 670 overcome elastic force to move and card Terminate in the second such numerous and diverse operation of fastener 664a of detection bar 660.It is twisted spring therefore, it is possible to increase substantially 670 to the assembling operation of the detection bar 660 of the direction force set.

In this assembled state, the second fastener 664a of detection bar 660 is positioned at maintaining part 129a than bar configuration section 126 By the torsionspring 670 opposition side to force direction A that the second end 673 exerts a force.Therefore, after assembling when generally working, The second end 673 of torsionspring 670 will not move to maintaining part 129a of bar configuration section 126, it is possible to keeps the second end 673 It is locked to detect the state of the second fastener 664a of bar 660.Therefore, it is possible to prevent maintaining part 129a to torsionspring 670 Work impacts.It addition, by the elastic force of torsionspring 670, it is possible to stably detection bar 660 is held in and stopper section The initial position that 126c abuts.

Second fastener 664a has the restriction the second end 673 anti-delinking part 664c to guide portion 664b side shifting.According to This structure, by detecting the anti-delinking part 664c of bar 660, it is possible to prevent the second fastener 664a the second end to torsionspring 670 The locking in portion 673 is released from.Therefore, it is possible to securely maintain torsionspring 670 relative to bar configuration section 126 and detection bar The assembled state of 660, therefore, it is possible to prevent that the action detecting bar 660 is bad.It addition, will detection via torsionspring 670 Bar 660 remains and does not come off from bar configuration section 126.Thus, when assembling other parts to bar configuration section 126, it is possible to prevent it Its parts interferes with detection bar 660 and comes off, therefore, it is possible to improve the assembling operation of door lock assembly 100.

(the second embodiment)

Figure 15 A to Figure 15 C illustrates the bar package assembly of the second embodiment.As shown in figure 16, the second embodiment and The difference of one embodiment is, when being pre-configured with torsionspring 670 on detection bar 660, will detect bar The 660 bar configuration sections 126 being configured to housing 110, are thus assembled into and make the first end 672 of torsionspring 670 be locked to bar to join Put first fastener 128 in portion 126, and make the second end 673 of torsionspring 670 be locked to detect the second locking of bar 660 The state of portion 664a.

Specifically, the bar configuration section 126 of the second configuration section 122 of the second embodiment possesses and is supported by detection bar 660 For the support shaft 127 that can rotate.It addition, bar configuration section 126 possesses what the rotation angle range to detection bar 660 was set Stopper section 126c and wall part 129.The end of subshell 130 side of wall part 129 does not possess the function as maintaining part 129a.

Bar configuration section 126 is provided with the first fastener 128 engaged by the first end 672 of torsionspring 670.The One fastener 128 is identical with the first embodiment, is arranged at bar configuration section 126 in the way of being positioned near support shaft 127 Part II 126b.First fastener 128 is in quadrangular shape and prominent to the direction identical with support shaft 127.Implement second It is provided with for the first end 672 of torsionspring 670 is guided to the first fastener 128 on first fastener 128 of mode Guide portion 128a；And limit the anti-delinking part 128b that first end 672 departs from from the first fastener 128.

As shown in Figure 15 A and Figure 15 C, anti-delinking part 128b is made up of stage portion, and this stage portion is by arranging from the first card The teat that the top of stop 128 is prominent to the direction contrary with force direction B that first end 672 is exerted a force by torsionspring 670 And formed.The top of anti-delinking part 128b is positioned at the locking position engaged first end 672 than the first fastener 128 and leans on the first end The opposition side of force direction B in portion 672.Therefore, when first end 672 is positioned at locking position, first end 672 is made The elastic force of torsionspring 670 is overcome to move, as long as moving to guide portion not across the anticreep tip position of anti-delinking part 128b 128a side, just cannot make first end 672 depart from from the first fastener 128.

Guide portion 128a makes the first end 672 being held in detection bar 660 to the force direction B phase with first end 672 Anti-direction is moved, and is guided to the first fastener 128 by first end 672 and make it be locked to the first fastener 128.Guide Portion 128a is constituted to the inclination edge of the top droop of anti-delinking part 128b by from the front end (upper end) of the first fastener 128.Guide portion The installation direction that 128a installs to bar configuration section 126 relative to detection bar 660 is obliquely installed.Therefore, by detection bar 660 is joined Put support shaft 127, and to bar configuration section 126 side pressing detection bar 660, thus make first end 672 along guide portion 128a Tilt and move to the direction contrary with force direction B, thus cross the anticreep tip position of anti-delinking part 128b and the can be made One end 672 is locked to the first fastener 128.

As shown in Figure 17 A to Figure 17 D, detection bar 660 possesses the contact portion 641 to the first detection switch 640 and presses Press section 661 and accept the test section 662 of rotation of shift fork 210.Base end side (test section 622 side) in press section 661 It is provided with the axis hole 663 for linking rotatably with support shaft 127.It addition, as Figure 17 B is clearly shown that, define axle The base end part of the press section 661 in hole 663 is the size of the winder 671 that can house torsionspring 670.It should be noted that The structure of torsionspring 670 is identical with the first embodiment.

On detection bar 660, it is provided with torsionspring in the way of being positioned at the side contrary with the first fastener 128 Second fastener 664a of the second end 673 locking of 670.Second fastener 664a is dashed forward by from press section 661 prominent first The end going out wall portion 664 is constituted.The front end of the second fastener 664a is provided with the anti-delinking part identical with the first embodiment 664c。

As shown in Figure 17 B and Figure 17 D, on detection bar 660, in the position the most opposed relative to anti-delinking part 664c The place of putting is provided with maintaining part 665a temporarily holding first end 672 when after being compressed by torsionspring 670.In detail and Speech, at the base end side of detection bar 660, projecting at the opposed locations in prominent wall portion 664 have second to highlight wall portion 665.Should The end of the second subshell 130 side highlighting wall portion 665 is maintaining part 665a.Maintaining part 665a is configured at bar at detection bar 660 and joins Put under the original state in portion 126, be positioned at the front side of force direction B of first end 672 relative to the first fastener 128.Separately Outward, being provided with receiving the spring incorporating section 666 of the winder 671 of torsionspring 670 on detection bar 660, this spring is received Receive portion 666 be highlighted centered by the axis of axis hole 663 wall portion 664 and second highlight wall portion 665 surround round The space of tubular, contains the winder 671 of torsionspring 670 in this spring incorporating section 666.

Maintaining part 665a is provided with to the first end 672 projected direction front end sidesway to the second prominent wall portion 665 Dynamic temporary card stop 665b carrying out limiting.Temporary card stop 665b is made up of stage portion, and this stage portion is by arranging from holding The bottom of portion 665a is to direction prominent dash forward contrary relative to force direction B that first end 672 is exerted a force by torsionspring 670 Portion and formed.

When detection bar 660 being configured to bar configuration section 126 and making it rotate to initial position, non-compressed state Under torsionspring 670 first end 672 uncompressed position, detection bar 660 maintaining part 665a the second end 673 is entered Holding position that row keeps, the engaging tip position temporarily, make first end 672 block of temporary card stop 665b of maintaining part 665a Terminate in the position, anticreep top of the anti-delinking part 128b of the locking position of the first fastener 128 of bar configuration section 126, bar configuration section 126 Put and guiding starting position that first end 672 is guided by guide portion 128a according to uncompressed position, guide starting position, Holding position, locking position, anticreep tip position and the order of interim locking tip position and be positioned at and first end 672 The side that force direction B is contrary.

In such second embodiment, as shown in Figure 17 A, in the spring resettlement section of the lower face side detecting bar 660 666 configuration torsionsprings 670.Then, as shown in Figure 17 B to Figure 17 D, make the second end 673 be locked to the second fastener 664a, Further, make first end 672 overcome elastic force to move, first end 672 is held in maintaining part 665a in the way of hook.

Then, as shown in figure 16, the detection bar 660 that provisional configuration has torsionspring 670 is embedded into bar configuration section 126 Support shaft 127 and install.That is, after the winder 671 of torsionspring 670 is passed support shaft 127, by support shaft 127 axis holes 663 being inserted into detection bar 660.Now, be in rotation angle range when detection bar 660 and press section 661 with only In the case of posture beyond the initial position of stopper 126c contact, the first end 672 of torsionspring 670 is not positioned at bar configuration Guide portion 128a in portion 126, but abut with the upper surface of the first fastener 128, therefore, it is impossible to detection bar 660 is pressed into Support shaft 127.

As shown in figure 18, when making detection bar 660 rotate to the posture of initial position relative to bar configuration section 126, reverse The first end 672 of spring 670 is positioned at guide portion 128a of bar configuration section 126, it is possible to detection bar 660 is pressed into support shaft 127.When pressing detection bar 660, first end 672 tilt along guide portion 128a and overcome torsionspring 670 elastic force and Mobile to the direction (in Figure 18 left side) contrary with force direction B.Further, when detection bar 660 is pressed into the assembling set During position, first end 672 crosses the top of the anti-delinking part 128b of bar configuration section 126.Thus, as shown in figure 15 c, torsionspring The first end 672 of 670 is locked to the first fastener 128 of bar configuration section 126.

So, in this second embodiment, bar configuration section 126 does not configures detection bar 660, bullet will be reversed After spring 670 is configured to the spring resettlement section 666 of detection bar 660, this detection bar 660 is configured to bar configuration section 126, thus, energy Enough it is assembled into the first fastener 128 making the first end 672 of torsionspring 670 be locked to bar configuration section 126, and makes torsion bullet The second end 673 of spring 670 is locked to detect the state of the second fastener 664a of bar 660.Therefore, with the first embodiment phase With, it is possible to acquisition can be significantly increased identical effect and the effects such as the assembling operation of detection bar 660.

It should be noted that the bar package assembly of the present invention is not limited to the structure of described embodiment, it is possible to carry out Various changes.

Such as, support shaft 127 is integrally provided with bar configuration section (base member) 126 but it also may (rotate with detection bar Bar) 660 it is integrally provided.Especially as the second embodiment, the detection bar 660 being configured with torsionspring 670 is configured to In the case of bar configuration section 126, preferably support shaft 127 is arranged on detection bar 660.It addition, support shaft 127 can configure with bar Portion 126 or detection bar 660 split are formed, and fix integratedly with bar configuration section 126 or detection bar 660.

It is made up of it addition, possess the stopper section 126c assembling guide portion 126d cylindrical the boss highlighted, but such as figure Shown in 19, it is also possible to be made up of the rib plate-like highlighted.It addition, in the present embodiment, guide portion 128a, 664b are set to Plane inclined plane but it also may be formed as curved.

Industrial utilizability

The bar package assembly of the present invention and bar assemble method are not limited to the detection bar 660 of door lock assembly 100, it is possible to It is applied to the various swingles exerted a force by spring.It addition, use the equipment of bar package assembly and bar assemble method not limit to In door lock assembly, it is also possible to be applied to all devices such as electronic equipment, home appliance, daily product.

Claims (7)

1. a bar package assembly, possesses:

Base member；

Swingle, it is configured at described base member；

Support shaft, it is arranged on described base member or described swingle, and enables described swingle relative to described base Body component rotates；And

Spring, it has winder and from the prominent first end of described winder and the second end, and described winder is passed through It is embedded in outward described support shaft and is arranged between described base member and described swingle, the described first end card of described spring Terminate in the first fastener arranged on described base member, and described the second end is locked on described swingle arrange The second fastener,

Wherein, described base member is provided with do not configure described swingle in the case of can configure the bar of described spring and join Putting portion, and be provided with maintaining part in described bar configuration section, this maintaining part overcomes the elastic force of described spring and keeps described Two ends,

Described swingle is provided with guide portion, this guide portion make the described the second end being held in described maintaining part to institute The direction stating the force direction of the second end contrary is moved, and is guided to described second fastener and make institute by described the second end State the second end and be locked to described second fastener,

The described first end of described spring is locked to described first fastener of described base member and makes described bullet Mode that the described the second end of spring is held in described maintaining part, the described bar that described spring is configured to described base member are joined Under the state putting portion, described swingle is configured at the described bar configuration section of described base member, thereby, it is possible to by described spring Described the second end be locked to described second fastener.

Bar package assembly the most according to claim 1, wherein,

Described base member has the stopper section making the rotation of the described swingle exerted a force by described spring stop,

Described second fastener, in the initial position making described swingle abut with described stopper section, is positioned at than described matrix structure The described maintaining part of part is by the opposition side of the force direction of described spring.

Bar package assembly the most according to claim 1 and 2, wherein,

Described maintaining part has temporary card stop, and this temporary card stop limits the described the second end prominent side to described support shaft To movement.

Bar package assembly the most according to claim 1 and 2, wherein,

Described second fastener has anti-delinking part, and this anti-delinking part limits described the second end to described guide portion side shifting.

5. a bar package assembly, possesses:

Base member；

Swingle, it is configured at described base member；

Support shaft, it is arranged on described base member or described swingle, and enables described swingle relative to described base Body component rotates；And

Spring, it has winder and from the prominent first end of described winder and the second end, and described winder is passed through It is embedded in outward described support shaft and is arranged between described base member and described swingle, the described first end card of described spring Terminate in the first fastener arranged on described base member, and described the second end is locked on described swingle arrange The second fastener,

Wherein, described swingle is provided be pre-configured with the spring incorporating section of described spring, and in described rotation It is provided with on bar and overcomes the elastic force of described spring to keep the maintaining part of described first end,

Described base member is provided with guide portion, this guide portion make the described first end being held in described maintaining part to The direction that the force direction of described first end is contrary is moved, and described first end is guided to described first fastener and made Described first end is locked to described first fastener,

The described the second end of described spring is locked to described second fastener of described swingle and makes described spring Described first end be held in described maintaining part mode, described spring is configured at described swingle described spring storage Under the state in portion, described swingle is configured at described base member, thereby, it is possible to by the described first end card of described spring Terminate in described first fastener.

6. a bar assemble method, wherein,

Make to be locked on base member, from the first end that the winder of spring is prominent, the first fastener of arranging, and make from The second end that described winder is prominent overcomes the elastic force of described spring to be held on described base member the holding of setting Portion, thus described spring is configured at described base member,

By by swingle via the support shaft being arranged on described base member or described swingle with the side that can rotate Formula is configured at described base member, thus, utilizes the guide portion being arranged on described swingle to make to be held in described maintaining part Described the second end moves to the direction contrary with the force direction of described the second end, and by described the second end to being arranged on The second fastener on described swingle guides and makes described the second end be locked to this second fastener.

7. a bar assemble method, wherein,

Make to be locked on swingle from the second end that the winder of spring is prominent second fastener of setting, and make from institute Stating the prominent first end of winder overcomes the elastic force of described spring to be held on described swingle the maintaining part of setting, from And described spring is configured at described swingle,

By by described swingle via the support shaft being arranged on base member or described swingle with the side that can rotate Formula is configured at described base member, thus, utilizes and is arranged on the guide portion on described base member, make to be held in described maintaining part Described first end move to the direction contrary with the force direction of described first end, and by described first end to setting The first fastener on described base member guides and makes described first end be locked to this first fastener.